CN-224232850-U - Small-size removal energy memory of emergent power consumption

Abstract

The utility model is applicable to the technical field of energy storage, and provides a small mobile energy storage device for emergency electricity. The small-sized mobile energy storage device for emergency electricity comprises a shell box body, a chassis and a mobile assembly, wherein a containing space is formed in the shell box body, the bottom of the shell box body is fixedly connected with the chassis, the mobile assembly for driving the chassis to move is arranged below the chassis, a front panel and a rear panel are arranged on the shell box body, an energy storage inversion unit assembly is arranged in the containing space, and the energy storage inversion unit assembly is connected with interfaces on the front panel and the rear panel through cables so as to realize input and output of electric energy and function expansion. The utility model solves the problems of urban influence, potential safety hazard, noise pollution and the like in the traditional outdoor temporary power supply mode.

Inventors

• WANG JINCHENG

Assignees

• 百思科新能源技术(青岛)有限公司

Dates

Publication Date

20260512

Application Date

20250527

Claims (10)

1. 1. The small-sized mobile energy storage device for emergency electricity utilization is characterized by comprising an outer shell box body (1), a chassis (2) and a mobile assembly, wherein a containing space is arranged in the outer shell box body (1), the chassis (2) is fixedly connected to the bottom of the outer shell box body (1), the mobile assembly for driving the chassis (2) to move is arranged under the chassis (2), a front panel and a rear panel (5) are arranged on the outer shell box body (1), an energy storage inversion unit assembly (7) is arranged in the containing space, and the energy storage inversion unit assembly (7) is connected with interfaces on the front panel and the rear panel (5) through cables so as to realize input and output of electric energy and function expansion.
2. 2. The small-sized mobile energy storage device for emergency power utilization according to claim 1, wherein the front panel is provided with a power output interface, and the power output interface comprises a waterproof concealed five-hole industrial socket (63), a photovoltaic charging interface (64), a waterproof USB charging interface (65) and a single-phase three-core 63A industrial aviation plug (66) which are used for providing stable power output for different types of load equipment.
3. 3. The small-sized mobile energy storage device for emergency power utilization according to claim 1, wherein the rear panel (5) is provided with an integrated delta-ac socket (51) for charging an energy storage component and an integrated delta-ac socket (52) for charging an electric mobile chassis, and the integrated delta-ac socket is used for accessing external equipment.
4. 4. A small-sized mobile energy storage device for emergency electricity utilization according to claim 3, wherein the front panel is further provided with a monitoring and display assembly, and the monitoring and display assembly comprises an output voltage, current and frequency digital display meter (67) and a device power supply output accumulation timer (68) for monitoring output parameters and recording power supply time in real time.
5. 5. The small-sized mobile energy storage device for emergency power consumption according to claim 3, wherein a mobile phone wireless charging seat (11) is arranged at the upper part of the shell box body (1), a lateral travelling camera (12) is arranged on the lateral surface of the mobile phone wireless charging seat, and a front travelling camera (61) and a rear travelling camera (55) are further arranged on the shell box body (1).
6. 6. The small-sized mobile energy storage device for emergency power consumption according to claim 1, wherein the lower part of the housing box body (1) is provided with a lower air inlet grille (13), the top of the housing box body is provided with an upper air exhaust grille (56), and the housing box body is communicated with the internal heat dissipation air duct (8) to form an air circulation path.
7. 7. The small-sized mobile energy storage device for emergency power consumption according to claim 1, wherein the mobile component is a wheel type mobile mechanism, the wheel type mobile mechanism comprises a driving wheel (31) and a steering wheel (32) which are arranged on a driving support, a control handle (4) is arranged on the steering wheel (32), and a handle display control screen (41) is arranged on the control handle (4) and is used for operating and monitoring the running state of the energy storage device.
8. 8. The small-sized mobile energy storage device for emergency electricity consumption according to claim 1, wherein the mobile assembly is a crawler-type mobile mechanism and comprises a crawler driving wheel (33), a bogie wheel (34) and a crawler-type chassis electric cabinet (36), the crawler driving wheel (33) and the bogie wheel (34) are mounted on the chassis (2), a rubber crawler (35) is wound between the crawler driving wheel (33) and the bogie wheel (34), and the crawler-type chassis electric cabinet (36) is mounted on the chassis (2) and used for controlling the operation of the crawler driving wheel (33).
9. 9. The small-sized mobile energy storage device for emergency power consumption according to claim 1, wherein the accommodating space is internally provided with an aerosol fire-fighting module (9) for automatically starting to extinguish fire when an electrical fire occurs.
10. 10. The small-sized mobile energy storage device for emergency power consumption according to claim 1, wherein the energy storage inversion unit assembly (7) comprises a battery module and a direct current bus, the battery module is connected with the direct current bus through a power distribution unit and a converter, and a plurality of output modules are connected to the direct current bus.

Description

Small-size removal energy memory of emergent power consumption Technical Field The utility model belongs to the technical field of energy storage, and particularly relates to a small mobile energy storage device for emergency electricity. Background With the increasing outdoor activities and the frequent occurrence of various types of incidents, the need for temporary power supply is becoming increasingly important. However, under existing market and technical conditions, there are still a number of disadvantages to small mobile energy storage devices for outdoor emergency power applications. Traditional emergency power supply modes mainly rely on municipal distribution boxes to directly lay cables or use small diesel generator sets. The cable is directly laid to influence the appearance of a city, crisscrossed lines are exposed, so that the cable is not safe and easy to cause visual pollution, and the temporary electric lines are extremely easy to cause potential safety hazards such as electric shock accidents, stumbling and falling injuries of pedestrians in places where people flow is dense, such as scenic spots or downtown areas. While the latter, i.e. the manner in which the diesel generator is used to supply power, can provide a relatively stable power output, noise pollution generated during operation thereof severely affects the quietness of the surrounding environment, and the emissions of diesel engines do not meet environmental requirements. The utility model designs a small-sized mobile energy storage device for emergency electricity to solve the technical problems. Disclosure of utility model The utility model provides a small-sized mobile energy storage device for emergency power utilization, which aims to solve the problems of urban influence, potential safety hazard, noise pollution and the like in the traditional outdoor temporary power supply mode, and adopts the following technical scheme: The small-sized mobile energy storage device for emergency electricity comprises a shell box body, a chassis and a mobile assembly, wherein a containing space is formed in the shell box body, the bottom of the shell box body is fixedly connected with the chassis, the mobile assembly for driving the chassis to move is arranged below the chassis, a front panel and a rear panel are arranged on the shell box body, an energy storage inversion unit assembly is arranged in the containing space, and the energy storage inversion unit assembly is connected with interfaces on the front panel and the rear panel through cables so as to realize input and output of electric energy and function expansion. On the basis of the technical scheme, the front panel is provided with a power output interface, and the power output interface comprises a waterproof concealed five-hole industrial socket, a photovoltaic charging interface, a waterproof USB charging interface and a single-phase three-core 63A industrial aviation plug and is used for providing stable power output for different types of load equipment. On the basis of the technical scheme, the integrated delta-shaped alternating current socket for charging the energy storage component and the integrated delta-shaped alternating current socket for charging the electric mobile chassis are arranged on the rear panel and are used for accessing external equipment. Preferably, the front panel is also provided with a monitoring and display assembly, which comprises an output voltage, current and frequency digital display meter and a device power supply output cumulative timer, and is used for monitoring output parameters and recording power supply time in real time. Advantageous effects Compared with the prior art, the device has the advantages that 1, compared with the traditional mode (such as directly laying the cable or using the diesel generator), the device not only avoids visual pollution and potential safety hazards caused by exposing the cable, but also reduces the risks of electric shock accidents and stumbling of pedestrians. Meanwhile, the design of the outdoor environment-friendly waterproof and dustproof device considers the requirements of the outdoor environment, provides functions of waterproof, dustproof and the like, and ensures safe operation in various complex environments. 2. Through setting up multiple type input/output interface to and be equipped with 360 degrees panoramic image functions and mobile mechanism, make equipment can adapt to different topography and application scenario, greatly expanded its range of application and operation convenience. The modular design also facilitates maintenance and upgrades, further improving the reliability and service life of the system. Drawings In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawing figures